Methods and compositions are provided for treating neuropsychiatric disorders such as schizophrenia, depression, attention deficit disorder, mild cognitive impairment, dementia, and bipolar disorder. The methods entail administering to a patient diagnosed as having a neuropsychiatric disorder (e.g., schizophrenia, depression, attention deficit disorder, mild cognitive impairment, dementia bipolar disorder, etc.) or as at risk for a neuropsychiatric disorder a benzoic acid, benzoic acid salt, and/or benzoic acid derivative, and/or a sorbic acid, sorbic acid salt, and/or sorbic acid derivative, in combination with a neuropharmacological agent (e.g., an antipsychotic, an antidepressant, medications for attention deficit and hyperactivity disorder, cognitive impairment, or dementia, etc.) where the benzoic acid, benzoic acid salt, or benzoic acid derivative, and/or a sorbic acid, sorbic acid salt, and/or sorbic acid derivative, is in an amount sufficient to increase the efficacy of the neuropharmacological agent.

Provided herein are compounds and pharmaceutical compositions comprising said compounds that are useful for treating cancers. Specific cancers include those that are mediated by YAP/TAZ or those that are modulated by the interaction between YAP/TAZ and TEAD.

Disclosed herein are tucaresol derivative compound and composition containing the same. Also disclosed herein are methods of enhancing immune response in a subject by administering the tucaresol derivative compound or by co-administering the tucaresol derivative compound and one or more additional agents. Also disclosed herein are use of the tucaresol derivative compound and composition containing the same in the manufacture of a medicament for treating cancer or enhancing immune response in a subject.

Disclosed herein are tucaresol derivative compound and composition containing the same. Also disclosed herein are methods of enhancing immune response in a subject by administering the tucaresol derivative compound or by co-administering the tucaresol derivative compound and one or more additional agents. Also disclosed herein are use of the tucaresol derivative compound and composition containing the same in the manufacture of a medicament for treating cancer or enhancing immune response in a subject.

The present disclosure provides methods of treating cancer in a patient determined to have a p53 mutation by administering an inhibitor of nonsense mediated decay. The patient may be further administered an inhibitor of mRNA splicing and/or an inhibitor of MDM.

The present disclosure provides methods of treating cancer in a patient determined to have a p53 mutation by administering an inhibitor of nonsense mediated decay. The patient may be further administered an inhibitor of mRNA splicing and/or an inhibitor of MDM.

A wet wipe with a substrate having cellulosic fibers and a lotion is provided. The lotion may have between about 96.0% and about 99.5%, by weight of the lotion, of water. The lotion may have a preservative system having benzoic acid and/or a salt thereof, succinic acid and/or a salt thereof, and phytic acid and/or a salt thereof. The lotion may also have a pH buffering system and a pH of about 3.5 to about 5.

A wet wipe with a substrate having cellulosic fibers and a lotion is provided. The lotion may have between about 96.0% and about 99.5%, by weight of the lotion, of water. The lotion may have a preservative system having benzoic acid and/or a salt thereof, succinic acid and/or a salt thereof, and phytic acid and/or a salt thereof. The lotion may also have a pH buffering system and a pH of about 3.5 to about 5.

The present invention relates to a polymer composite for ultrasound-based cancer immunotherapy, which comprises an peroxalate derivatives, and a preparation method thereof. The polymer composite according to the present invention is a structure in which the peroxalate derivatives are encapsulated in an amphipathic polymer compound in which a biocompatible polymer and a sonosensitizer are combined. The peroxalate derivatives produce free electrons and carbon dioxide (CO.sub.2) by reaction with a high concentration of hydrogen peroxide (H.sub.2O.sub.2) in cancer tissue, the generated electrons raise the energy level of the sonosensitizer in the polymer composite to increase the amount of reactive oxygen species (ROS) production, thereby exhibiting an effect of increasing the death rate of cancer cells. In addition, by ultrasound treatment, immunogenic cell death (ICD) is induced due to the cavitation effect of the produced CO.sub.2, so molecules capable of activating immune cells in cancer cells are released without damage to induce an immune response to cancer. Therefore, the polymer composite according to the present invention is expected to be effectively used as an ultrasound-based cancer immunotherapeutic agent.

A method of treating or preventing vascular calcification in a patient by administering L-ascorbic acid or ascorbate to the patient and a pharmaceutical composition containing at least one statin and L-ascorbic acid or ascorbate in a dosage form that allows for the concomitant administering of the at least one statin and L-ascorbic acid or ascorbate to a patient.